Annunciator system



Jul'l 28. 1955 R. J. MARMoRsToNE Re. 24,031

ANNuNcIAToR sYs'rEu Original Filed Hay 17, 1954 2 Sheets-Sheet 1 Wam June 28, 1955 R. J. MARMoRsToNl-z ANNUNcm'roR svs'mn 2 Shane-'Sheet 2 Original Filed May 17, 1954 United States Patent Ofiice Re. 24,031 Reiesued June 28, 1955 ANNUNCIATOR SYSTEM Robert I. Marmorstone, Chicago, Ill., assipnor to Panelllt, Inc., Skoltle, Ill., a corporation of Illinois Original No. 2,70l,872 dated February 8, 1955, Serial No. 430,301, May l 1954. Application for relseue March 29, 1955, Serial No. 497,828

24 Clailns. (Cl. 340-223) Matter enclosed in heavy brackets [J appears in the original patent but forme no part of this relssue specification; matter prlnted in ltalics lndlcates the addltions made by reissne.

The present invention relates to annunciator or alarm systems and more particularly to a visual annunciator system for indicating the presence of one or more abnormal conditions in a group of closely related variables, although many aspects of the invention have a much broader application.

Wherever processes have closely interrelated variables, or where automatic machinery is equipped with safety shut-down devices, it is important to pin point quickly the source of trouble. On some process applications, the cause of trouble is dil'ficult to locate. When one variable goes off-normal, many others follow, producing a group Df alarms that require careful interpretation. On complicated production machinery, any one of many factors nay cause automatic shut-down, and costly production time is wasted in seeking out the cause of trouble.

One of the objects of this invention is to provide an mnunciator system wherein all abnormal interrelated fariables may be quickly identified by visual or other neans and, further, wherein the first variable to become tbnormal is indicated so that the cause and effects of rouble in a system is immediately apparent to the iperator.

Another object of the invention is to provide an anlunciator system wherein the first variable of a group of nterrelated variables to become abnormal is indicated by t distinguishing indication, and wherein the distinguishng indication of the first abnormal variable may be renoved and changed to another alarm indication so that he annunciator system is made ready for the identificaion of the l'irst alarm of a subsequent series.

A further object of the invention is to provide an an- |unciator system for use with a number of closely interelated variables wherein the first variable to become abtormal is indicated by a distinguishing visual or other ndication, and wherein the distinguishing indication renains even after the particular variable returns to a norsal condition unless a reset switch is actuated, whereby a ecord of the abnormal condition remains until the operaor has logged such information.

Still another object of the invention is to provide an nnunciator system of the above character which utilizes :lay control circuits of utmost simplicity and reliability.

The present invention gives an immediate indication of ie cause of shut-down or otherwise off-normal condition y clearly identifying the first-to-become abnormal varlble to occur in a group of interrelated variables and also y identifying the other abnormal variables which beame abnormal following the first abnormal variable. `urther, it provides a flexible means of grouping and re- :tting the various annunciator units associated with the arious variables and presents the information in a maner such that a minimum amount of interpretation is reured to determine the causes and effects of trouble in ie system.

In the preferred form of the invention a visual color Ill indication indicates abnormal conditions. When an offnormal condition occurs, the first signal will cause a flashing red indication and subseqent signals indicating related abnormal values will flash white. This is the alert stage and is accompanied by an audible signal. When the operator pushes an acknowledgment push button, the audible alarm is silenced, and both the red and white signals change from flashing to a steady-on condition.

All signals lock-in on momentary contact until the signals are acknowledged. Then the white signals, indicating abnormal conditions occurring subsequent to the first to occur abnormal condition, will drop out as these white signal indicated conditions return to normal. The red signal, however, will not drop out until a reset push button is actuated so that a continuous record of the initial cause of the trouble is presented until this information can be logged.

It is not uncommon for off-normal conditions to continue for extended periods of time. Normally, the existence of a red signal associated with one of a large number of interrelated variables will prevent a subsequent red signa] from occurring in the annunciator units associated with variables of this group. Once the information on a first to occur abnormal condition has been logged, the annunciator system may be cleared of the red signal by changing the red to a white signal, if the associated variable is still abnormal, so that the annunciator system is not monopolizcd by the first group of interrelated variables which becomes abnormal. Thus, identification of the first alarm in a subsequent series of alarms may be obtained.

The circuitry utiliaed with the present invention is such that the annunciators associated with a number of variables may be grouped together in any desired number of related groups quickly and easily.

Other objects, advantages and features of the invention will become apparent on making reference to the specification to follow and the drawings illustrating an exemplary embodiment of the invention wherein:

Fig. l is a circuit diagram of au annunciator system incorporating features of the invention; and

Fig. 2 is a chart illustrating the operation of the circuit of Fig. l.

It should be understood that although the particular relay circuitry to be described forms a specific aspect of the invention and the simplicity of the interrelationship of the various relay circuits shown in the drawings are highly advantageous, the broader aspects of applicant's invention are not limited to a few specific circuits for carrying out applicant's broad inventive concept since the latter is unique and novel in and of itself and has materially enhanced the annunciator field.

The term "variable" used in the specification to follow means any variable quantity, whether the Variation is intended or not, such as the temperatures or pressures of a chemical process, the temperature conditions throughout different parts of a motor or generator, the voltage or current in different parts of an electrical system, etc. Also, the term annunciator unit" refers to a related group of elements which are associated with a variable in such a manner as to indicate when the variable is either in a normal or abnormal condition.

The embodiment of the invention illustrated in the drawings shows two annunciator units 2 and 2' which are associated with interrelated variables. By interrelated variables is meant a group of variables wherein a variation of one of the variables may, under certain conditions, affect the condition of the other variable or variables. For example, in a chemical process, the pressure at one point in the process may aifect the temperature or pressure at another point in the system; in the case of a power plant. a short circuit or overload in any particular circuit may result in an excessive temperature in the rotor or stator of the generator which produces the current.

Although only two annunciator units are shown in the drawings, it is obvious and apparent that a much larger number of annunciator units would be associated together to form a related group of annunciator units which are tied together by various common busses and control switches, to be described. In the preferred form of the invention, visual means in the form of colored lighting units 4 indicate, respectively, the condition of the variable associated with the corresponding annunciator unit. Each of the colored lighting units 4 includes a red light bulb 6 and a white light bulb 8. These lights may be mounted behind transparent or translucent name plates, or may be separately visible lights which are grouped together on the face of a control cabinet with appropriate identification to indicate the process variables with which the lighting units are associated.

Before proceeding with a description of the circuitry for controlling these lights, a description of the manner in which the lighting units are utilized and the various manually operable control switches will be discussed, so that the broader aspects of the invention will be clearly in mind before the details of the circutry are discussed.

Assume, for a moment, that a control panel contains eight annunciator units which are associated with eight corresponding interrclated variables, and that annunciator units 2 and 2' represent two of the eight annunciator units. Assume, further, that a fault originates with the variable associated with annunciator unit 2 and that because of this fault the variable associated with the annunciator unit 2' also becomes abnormal while the remaining six annunciator units and variables associated therewith are undisturbed. With the occurrence of these abnormal conditions, an operator would be attracted to the light panel housing the lighting unit 4 by the sounding of an audible alarm or bell 10. Means is provided for flashing the red light 6 of the indicating unit 2 associated with the process variable which rst becomes abnormal. The flashing indication of the light ttracts the operator to the portion of the control panel housing the lighting units 4. Means is also provided for flashing the white light 8 of the annunciator unit 2' associated with the other abnormal process variable which became abnormal following the variable associated with the annunciatorv unit 2. Conversely, if the variables associated with annunciator unit 2' was the source of the trouble, then the red light 6 of that unit would be flashing and the variables affected thereby would be flashing a white light.

The annunciator system of the present invention thus immediately apprises an operator as to which varable of a group of interrelated variables is the probable source of trouble, and also indicates all of the variables which become abnormal following the first abnormal variable. After making a note of the location of the present trouble, the operator depresses an acknowledge push button 12 which changes the flashing red and white indications of the lighting units to a steady red and white light indication, respectively. The operator can then dispatch suitable personnel to investigate the trouble points in a system indicated by the annunciator units. As soon as the difhculty is corrected, the lighting unit 4 associated with the variable whose difliculty followed from the first abnormal variable will become unlighted to indicate that the fault or abnormal condition has been cleared in at least part of the system. The red light indication of the light 6, however, will not drop out until a reset push button 14 is depressed and the variable associated with the annunciator unit 2 has become normal again. If the variable associated with the annunciator unit 2 is still abnormal following the depression of the reset button 14, the indication of the lighting unit 4 of unit 2 will change from red to a steady-on white light upon the energiza- Gil tion of light 8. The purpose of this arrangement is to clear the red signal from the group of eight associated annunciator units so that a red signal may again appear to indicate the first signal of a subsequent series of alarms.

A normally open test push button 26 is actuated to test the continuity of the various annunciator lights.

The lighting units 4 and the audible alarm 10 are controlled by a series of relay circuits illustrated in Fig. l. The energization of the relay circuits are in turn Controlled by a suitable source of A. C. or D. C. voltage 18, various push button contacts 12, 14 and 16, and by means including remote actuator alarm contacts 20 and 20' associated with annunciator units 2 and 2'. The remote alarm contacts 20 and 20' are Controlled directly by suitable condition responsive means at the location of the variable to be indicated, and actuation of these contacts indicates the presence of an abnormal condition. The condition responsive means for controlling these contacts may, for example, be thermostats where temperature variables are involved, or may be relays where current or voltage conditions are to be indicated, etc. The remote alarm contact 20 is shown as a normally open contact whereby the remote alarm contact 20' is shown as a normally closed contact. Obviously, a relay system may be devised which operates on either a normally closed or a normally open contact. Power plants, for example, prefer to utilize normally open alarm contacts to minimize drain on the battery system used for encrgizing the annunciator circuits, and many chemical and other industries prefer to utilize normally closed alarm contacts.

The description to follow will describe the operation of the annunciator unit 2 associated with the normally open alarm contacts 20, but it should be understood that the annunciator unit 2' utilizing a normally closed remote alarm contact operates in substantially the identical manner and utilizes substantially the identical circuitry except for minor variations in the contact arrangcment associated with a relay Controlled by these remote contacts. The relay coils and contacts of the annunciator units 2 and 2' which have corresponding functions have been given similar reference characters. Primes are used to show any elements which are structurally somewhat ditferent.

Reference to the sets of contacts of the various relays will be made by identifying the contacts by the letters of the corresponding relay followed by the number of the contact set of that relay. Thus, for example, a reference to contacts A4 will indicate that the contacts A4 are a fourth set of contacts actuated by relay A. Further, a contact which is normally open (that is, opened when the relay is deenergized) is identified by a pair of spaced parallel lines and a contact which is normally closed (that is, when the relay is unenergized) is identified by a pair of spaced lines with an inclined line bridging the said two spaced lines.

All of the relay coils and contacts associated with annunciator unit 2 are mounted together on a common chassis to form a unitary plug-in unit identified by the reference numeral 22. Each plug-in unit has three relays associated therewith, namely an alarm relay A, which is initially energized upon the closing of the remote alarm relay contacts 20. a lockout relay L0 which is energized only if the relay A is the first relay of the associated group of annunciator units to become energized, and an acknowledgment relay B which is a normal energized relay which controls the flashing and steady-on conditions of the lights 6 and 8. The contacts of each of these relays are part of the energization circuit of other relays and of the lights 6 and 8 so that the energization of one of the relays has its effect on the other circuits of the annunciator unit in a manner to be described.

The cireuit 23 associated wth the energization of relay A, herenafter to be referred to as the alarm relay circuit, is coupled across common busscs P and N, respectively, which busscs are connected to the opposite terminale of a suitable power supply 18. The P bus will sometimes be referred to as the positive bus and the N bus as the neutral or negativc bus. The alarm relay circuit 23 includes the remote alarm contacts 20 in series with the alarm relay A. and the remote contacts 20 close to energize the circuit 23 when the associated variable becomes abnormal. A holding circuit is established for relay A through normally open contacts ALand B1. The B relay is normally energized so that the B1 contacts are closed when relay A is intially energized so that even momentary abnormal conditions are registered by the annunciator unit. lf relay A is the first to be energized in a group of related annunciator units, then lockout relay L becomes energized through a lockout relay circuit 26 including positive bus P, the contact pair 14a of normally closed reset switch 14, a common reset bus FR, normally open contacts A3 which are closed since relay A is energized, relay coil LO, normally open contacts A2, normally open contacts B2 (relay B is then energized) and current limiting resistor 27 connected to the neutral bus N. The normally open contacts L02 in parallel with normally open contacts B2 provide a means for holding the energization of relay L0 following the depression of the acknowledge push button 12 which deenergizes relay B and opens contacts B-2.

Upon the initial energization of relays A and L0 in a manner just described, red light 6 Will be energized through a red light. circuit including positive bus P. the other normally closed contacts 14h of the reset switch 14, normally closed acknowledge switch 12, a common bus C. red light 6, normally open switch contacts LOS which are now closed because relay LO is energized, normally open switch contacts B6 which are closed because relay B is energized, flashing switch bus F, and flashing switch contacts 30 which are connected to the common neutral bus N. Flashing switch 30 is oscillated between its open and closed conditions by a flashing motor 32 which is coupled across the terminals of the alarm bell 10. The alarm bell and flashing motor control circuit includes the alarm bcll 10 and tlasher motor 32 in parallel, the normally open contacts B4 and A4, the common bus C, the normally closed acknowledge and reset ;Witches 12 and 14, and the positive bus P. Thus. on the energization of relay A, contacts A4 and B4 are closed which thereby energizes the audible alarm 10 and the flasher motor 32. Smultaneously, the red light 6 is ashed on and off as the flasher motor 32 alternates the "lashing switch 30.

Besides the branch of the red light 6 just described, he low voltage side (a D. C. voltage source is assumed, aut. of course. A. C. could be used) of the contacts LOS is connected to the neutral bus N through normally :losed switch contacts B7 (which are intially open) therey establishing a transfer branch which becomes ener- ;ized when the acknowledge switch 12 is momentarily Jpened to change the red light frorn a flashing to a steadym condition.

If relay A of the annunciator 2 was not the first relay 'i of the grouped annunicator units to become energized, he lock-out relay LO does not become energized, whereipon normally open contacts LOS in the red light circuit tre open so that the light 6 remains unenergized. The ock-out relay in the annunciator unit which was first :nergized renders the lock-out relays of the other aniunciator units of the group inoperative by shorting the erminals of the latter lock-out relays in a manner now o be described. Therefore, only the red light in the first ictuated annunciator unit can be lighted.

The by-passing of the lockout relays is effected by :oupling the reset bus FR to the low voltage point of he lockout relays of the annunciator units which are to e rendered inoperative through a circuit including normally open contacts LO4 extending between the reset bus FR and a common grouping bus GB. The grouping bus GB connects with the low voltage side of the L0 relays of the annunciator units whose L0 relays are unenergized through normally closed lockout contacts 1.03 and normally open contacts B3, which are intially closed because relay B is intially energized. These latter lockout relays are thus by-passed or short circuited.

Where the red light of annunciator unit 2 is on due to the energization of the associated lockout relay LO, the low voltage side of the latter relay is disconnected from the grouping bus GB by normally closed contacts L03.

lf the lockout relay L0 of any annunciator unit is unenergized, and the alarm relay A is energized, the white light 8 becomes energized through a circuit including positive bus P, normally closed reset and acknowledge switches 14 and 12, common bus C, white light 8, normally closed contacts LO7, normally open contacts A6, and normally open contacts B8 which are intially closed, and the flashing bus F. The white light B thus flashes on and off when the relay A is energized and lockout relay L0 is deenergized. When the acknowledge button 12 is depressed, the white light 8 is energized through an alternate branch including the normally closed switch contacts B9 leading to the neutral bus N, and the white light is then in a steady-on condition.

The energization circuit of the acknowledge relay B includes positive bus P, normally closed reset and acknowledge switches 14h and 12, common bus C, normally closed contacts A5 or alternately through holding contact B5, and relay coil B leading to the neutral bus N. Thus, relay B is energized through the normally closed contacts A5 or its own holding contacts B5 until either the normally closed acknowledge switch 12 or the normally closed reset switch 14 is open. When the acknowledge switch 12 is momentarily opened, relay B becomes deenergized since its holding contacts B5 open and normally closed contacts A5 are then open. The energization of the light 6 or 8, whichever is lit at that time, is then transferred from the flashing bus F to the neutral bus N through transfer contacts B7 or B9, which close upon the deenergization of relay B.

lt can be seen that when the white light 8 is lit in a steady-on condition and the remote alarm contacts 20 open due to the return of the associated variable to a normal value, that the relay A becomes deenergized since its holding circuit is open (contacts B1 were previously opened when acknowledge switch 12 was depressed). The light 8 will then become deenergzed as the normally open switch contacts A6 open.

Whenever the A relay of an annunciator unit is the first to become energized, as stated before. the opening of the remote switch contact 20 does not deenergize the A relay because of the holding circuit established by the normally open relay contact LOl. Relay A in turn maintains the encrgization of the lockout relay L0 by means of the normally open contacts A3 so that the only way to extinguish the red light 6 once it has become energized is to open the reset switch contacts 14a which then deenergizes the lockout relay. lf, when the reset switch 14 is momentarily opened, the remote alarm contact 20 is closed indicating the continued existence of an abnormal condition, the red light becomes extinguished and the white light 8 becomes energized since the normally closed contacts 1.07 in series with the white light then is closed and the switch contacts A6 in the white light circuit remains closed because relay A is held energized through the closed holding contacts LOI. The reset switch 14 thus removes the red indication from the annunciator unit 2 and clears the system for a subsequent series of alarms.

For light testing purposes, energization circuits are established to the various Iights through the normally closed switch contacts LO6 and A7 upon the depression of the normally open test switch contacts 16. A common test bus T connects the test switch 16 to all of the L06, A7 and A7' contacts of the annunciator units.

As previously stated, the relay circuitry of the plug-in relay circuit 22' of the annunciator unit 2' is substantially identical to the relay circuit for annunciator unit 2 except that the plug-in unit 22' is utilized with normally closed remote alarm contacts which open rather than close upon the occurrence of an abnormal condition. Accordingly, the alarm relay A', corresponding to the alarm relay A in the annunciator unit 2, is in a circuit which maintains the relay A' in an energized state when the associated variable is in a normal condition. The energization circuit of relay A' can be traced from positive bus P through the remote normally closed alarm relay contacts 20', through relay coil A' and through normally open holding contacts Al' leading to the neutral bus N. The relay A' is initially energized by the depression of the aclcnowledge switch 12 which energizes the acknowledge relay B, in the manner previously described in connection with the annunciator unit 2. When the relay B is deenergized and the associated variable is normal, the relay A' is energized through a circuit including positive bus P, normally closed alarm contacts 20', relay coil A', and normally closed contacts LOl' and normally closed contacts B1 leading to the neutral bus N. The contacts LOl'. when opened upon the energization of lockout relay LOl, performs a similar function to contacts LOl in annunciator unit 2. lt thus locks-out or maintains relay A' deenergized to lock-in a red light indication, if the associated variable is the first-to-become abnormal variable.

Thus, the preferred form of the invention provides an annunciator system wherein the indication of the first variable of a group of interrelated variables to become abnormal is continuously indicated until a reset button is depressed. Then the red changes to a white light indication if the associated variable is still off-normal. With regard to variables which become abnormal following another variable, prior to the depression of the reset button 14 and subsequent to the depression of the acknowledge push button 12, the return of a variable to abnormal will extinguish the associated white light. Prior to the depression of the acknowledge push button 12, however, all light indications are held even if the abnormal conditions exist only momentarily. Grouping of annunciator units is simply effccted by tying in new plug-in annunciator units to the various common busses.

It should be understood that numerous modifications may be made of the preferrcd form of the invention above described without deviating from the broader aspects of the invention.

l claim:

[1. An annunciator system for indicating the presence of abnormal variables in a group interrelated variables comprising means for providing two different alarm indications for each variable of said group, one indication indicating that the associated variable is the first of a series of said related variables to become abnormal and the other indication indicating that the associated variable has become abnormal subsequent to another variable of the series, and control means for said first-mentioned means, said control means being responsive to the condition of the variable of said group for causing said firstmentioned means to produce said one indication for the first-to-become abnormal variable and to produce said other indication for the variables which become abnormal subsequent to said first-to-become abnormal variable] [2. An annunciator system for indicating the presencc of abnormal variables in a group of interrelated variables comprising means for providing two different alarm indications for each variable of said group, one indication indicating that the associated variable is the first of a series of said related variables to become abnormal and the other indication indicating that the associated variable has become abnormal subsequent to another variltl able of the series, control means for said first-mentioned means, said control means being responsive to the condition of the variables of said group for causing said first-mentioned means to produce said one indication for the first-to-become abnormal variable and to produce said other indication for the variables which become abnormal subsequent to said first-to-become abnormal variable, and means for changing the alarm indication associated with the first-to-become abnormal variable to another alarm indication if the latter variable has not returned to normal so as to clear the indicating means for a subsequent series of alarmsJ [3. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising means for providing two different alarm indications for each variable of said group, one indication indicating that the associated variable is the first of a series of said related variables to become abnormal and the other indication indicating that the associated variable has become abnormal subsequent to another variable of the series, control means for said first-mentioned means, said control means being responsive to the condition of the variable of said group for causing said first-mentioned means to produce said one indication for the first-to-become abnormal variable and to produce said other indication for the variables which become abnormal subsequent to said first-to-become abnormal variable, and holding means for maintaining the alarm indication only for the variable which first becomes abnormal even though the associated variable returns to normal] [4. An annunciator system comprising a group of condition-indicating means to be associated with an interrelated group of variables, each of said condition-indicating means being capable of producing two different colored alarm indieations, one of said colored alarm indications indicating that the associated variable is the first of a series of said interrelated group of variables to become abnormal and the other colored alarm indication indicating that the associated variable is abnormal following another abnormal variable of the series, first alarm actuating means associated with each conditionindicating means and responsive to the abnormal condition of the associated variable for effecting said one alarm indication and for rendering the first alarm actuating means associated with the other condition-indicating means of the group inoperative, second alarm actuating means associated with each condition-indicating means and responsive to the abnormal condition of the associated variable for cffecting said other alarm indication, and means associated with each condition-indicating means for preventing the operation of said second alarm actuating means if the first alarm actuating means is operativeJ [5. An annunciator system comprising a group of condition-indicating means to be associated with an interrelated group of variables, each of said condition-indicating means being capable of producing two different alarm indications, one of said alarm indications indicating that the associated variable is the first of a series of said interrelated group of variables to become abnormal antLthe other alarm indication indicating that the associated variable is abnorrnal following another abnormal variable of the series. first alarm actuating means associated With each condition-indicating means and responsive to the abnormal condition of the associated variable for effecting said one alarm indication and for rendering the first alarm actuating means associated with the other condition-indicating means of the group inoperative, second alarm actuating means associated with each condition-indicating means and responsive to the abnormal condition of the associated variable for effecting said other alarm indication, and means associated with each condition-indicating means for preventing the operation of said second alarm actuating means if the first alarm actuating means is operative] 6. An annunciator system comprising a group of coniition-indicating means to be associated with an inter- 'elated group of variables, each of said condition-indi- :ating means being capable of producing two different llarm indications, onc of said alarm indications indicatng that the associated variable is the first of a series of aid interrelated group of variables to become abnormal tnd the other alarm indication indicating that the asso- :iated variable is abnormal following another abnormal 'ariable of the series, first alarm actuating means asso- `iated with each condition-indicating means and responive to the abnormal condition of the associated variable or effecting said one alarm indication and for rendering he first alarm actuating means associated with the other ondition-indicating means of the group inoperative, sec- 'nd alarm actnating means associated with each condi' ion-indicating means and responsive to the abnormal `ondition of the associated variable for effecting said ther alarm indication, means associated with each coniition-indicating means for preventing the operation of aid second alarm actuating means if the first alarm ctuating means is operative, and manually operablc means for transferring operation from said first alarm to aid second alarm actuating means whereby the conditiontdicating means are cleared to indicate the first abnortal variable of a subsequent series of abnormal variables 'ithin said group.

7. An annunciator system comprising a group of ondition-indicating means to be associated with an inter- :lated group of variables, means for providing a first-toecome abnormal alarm indication on the condition-indiating means which is associated with the variable of tid group which first becomes abnormal, means for roviding a second alarm indication on the other condion-indicating means which are associated with variables hich become abnormal following another variable, manally operable acknowledgment means for changing said rst and second alarm indications to another and respecvely different alarm indication which indicates that the arms have been acknowledged, means operative after le actuation of said acknowledgrnent means for holding nly the alarm nidication indicating the first variable to :come abnormal even though the associated variable turns to normal, and resetting means for removing the arm indications of the condition-indicating means assoated with the first-to-become abnormal variable if that triable has returned to normal and for changing the arm indication of said latter condition-indicating means the associated variable has not returned to normal so at the annunciator system is cleared to receive alarms i the first of a subsequent series of variables to become mormal.

[8. An annunciator system comprising a group of mdition-indicating means to be associated with an interlated group of variables, means for proving a first-to- :come abnormal alarm indication on the condition-inditing means which is associated with the variable of id group which first becomes abnormal, means for proding a second alarm indication on the other conditiondicating means which are associated with variables rich become abnormal following another variable, and eans for removing the alarm indications of the condim-indicating means associated with the first-to-become normal variable if that variable has returned to noral and for changing the alarm indication of said latter ndition-indicating means if the associated variable has t returned to normal so that the annunciator system cleared to receive alarms on the first of a subsequent 'ies of variables to become abnormal] [9. An annunciator system comprising a group of ndition-indicating means to be associated with an interated group of variables, means for providing a first-tocome abnormal alarm indication on the condition-indiing means which is associated with the variable of d group which first becomes abnormal, means for providing a second alarm indication on the other condition-ndicating means which are associated with variables which become abnormal following another variable, and means for changing the alarm indications of the indicating means associated with first-to-become abnormal variable to another alarm indication so that the annunciator system is cleared to receive alarms on the first of a subsequent series of variables to become abnormal] 10. An annunciator system comprising a group of condition-indicating means to be associated with an interrelated group of variables. means for providing a first-to-become abnormal alarm indication on the condition-indicating means which is associated with the variable of said group which first becomes abnormal, means for providing a second alarm indication on the other condition-indicating means which are associated with variables which become abnormal following another variable, manually operable acknowledgment means for changing said first and second alarm indications to another and respectively different alarm indication which indicates that the alarms have been acknowledged, and means operative after the actuation of said acltnowledgment means for holding onlythe alarm indication indicating the first variable to become abnormal even though the associated variable returns to normal.

11. An annunciator system comprising a group of condition-indicating means tobe associated with an interrelated group of variables, means for providing a first-to-become abnormal alarm indication on the condition-indicating means which is associated with the variable of said group which first becomes abnormal, means for providing a second alarm indication on the other condition-indicating means which are associated with variables which become abnormal following another variable, manually operable acknowledgment means for changing said first and second alarm indications to another and respectively different alarm indication which indicates that the alarms have been acknowledged, means operative before the actuation of said acknowledgment means for holding the alarm indications of all abnormal variables, and means operative after the actuation of said acknowledgment means for holding only the alarm indication indicating the first variable to become abnormal even though the associated variable returns to normal.

[12. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising means for providing two different alarm indications for each variable of said group, one indication indicating that the associated variable is the first of a series of said related variables to become abnormal and the other indication indicating that the associated variable has become abnormal subsequent to another variable of the series, control means for said first-mentioned means, said control means being responsive to the condition of the variables of said group for causing said first-mentioned means to produce said one indication for the firstto-become abnormal variable and to produce said other indication for the variables which become abnormal snbsequent to said first-to-become abnormal variable, and means for changing the alarm indication associated with the first-to-become abnormal variable to said other alarm indication if the latter variable has not returned to normal so as to clear the indicating means for a subsequent series o f alarms] 13. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising first means for each variable for providing a first alarm indication indicating that the associated variable was the first of the group to become abnormal. second means for each variable for providing a second alarm indication indicating that the associated variable became abnormal following the first-to-become abnormal variable, respective circuits for controlling the energization of said first and second alarm indicating means, an alarm relay for each variable having contacts in the cnergization circuits of the associated alarm indicating means and adapted to prepare said circuits for energization when said alarm relay is in a first abnormal-indicating position and to disable said circuits when the relay is in a second normal-indicating position, means for Operating said alarm relays respectively into said first and second postions when the associated variables are respectively abnormal and normal, a lock-out relay and an energization circuit therefor for each variable and having contacts in the energization circuits of the associated alarm indicating means, which contacts are adapted to energize the prepared energization circuit of the associated first [a prepared one of said] alarm indicating means and to disable the prcpared energization circuit of the [other] associated second alarm indicating means when said lock-out relay is in one position. and to energize the prepared energization circuit of the [said other prepared one of the] associated second alarm indicating means and to disable the prepared energization circuit of [said one] the associated first alarm indicating means when said lock-out relay is in another position, each alarm relay having contacts [on] in the energization circuit of the associated lock-out relay for energizing the same when the alarm relay is in said first position and for disabling the same When the alarm relay is in the second position, and a lock-out relay disabling line common to all of the lock-out relays, which line is connected to a terminal of each lock-out relay through contacts of the same, said last-mentioned contacts being opened when the associated lock-out relay is in said other position and are closed when said lock-out relay is in said one position, and each lock-out relay having by-passing contacts connected between said common lock-out relay line and the other terminal of said lockout relay when the associated alarm relay is in said first alarm-indicating position, whereby the actuation of the lock-out relay associated with the variable which first becomes abnormal into said one position disables all of the other lock-out relays.

l4. An annunciator system for indicating the presence of abnormal varables in a group of interrelated variables comprising first means for each variable for providing a first alarm indication indicating that the associated variable was the first of the group to become abnormal, second means for each variable for providing a second alarm indication indicating that the associated variable became abnormal following the first-to-become abnormal variable, respective circuits for controlling the energization of said first and second alarm indicating means, an alarm relay for each variable having contacts in the energization cireuits of the associated alarm indicating means and adapted to prepare said circuits for energization when said alarm relay is in a first abnormal-indicating position and to disable said circuits when the relay is in a second normal-indicating position, means for Operating said alarm relays respectively. into said first and second positions when the associated variables are respectively abnormal and normal, a lock-out relay for each variable having contacts in the energization circuits of the associated alarm indicating means, which contacts are adapted to energize the prepared energization circuit of [a prepared one of said] the associated first alarm indicating means and to disable the prepared energization circuit of the [other] associated second alarm indicating means when said lock-out relay is in one position, and to energize the prepared energization circuit of the [said other prepared one of the] associated second alarm indicating means and to disable the prepared energization circuit of [said one] the associated first alarm indicating means when said lock-out relay is in another position. means responsive to the operation of each alarm relay into said first position for actuating the associated lock-out relay into said one position and responsive to the operation of each alarm relay into said second position for actuating the associated lock-out relay into its other position, and means responsive to the operation of each lock-out relay into said one position for disabling the other lock-out relays.

15. An annunciator system comprising respective alarm-light means to be associated with an interrclated group of variables, each of said alarm-light means being capable o producing two diflerent visual indications, one of said visual indications indicating that the associated variable is the first of a series of interrelated group of variables to become abnormal and the other visual indir'aton indicaling that the associated variable is abnornml following another abnormal variable of the series. first alarm-light actuating means associated with each alarm-light means and responsive to the abnormal condition of the associated variable for eflccting said one visual indication and for rendering the first alarm-light actuttting means associated with the other alarm-light means of the group inoperative, second alarm-light actuating means associated with each alarm-light means and responsivc to the abnormal condition of the associated l'ariable for eflecting said other visual indication. and means associated with each alarm-light means or preventing the operation of the associated second alarmlight actuating means if the associated first alarm-light actuating means is operative.

16. An annunciator system comprising a group of condition-indicating means to be associated with an interrt'lated group of variables, each o said conditionindicating means being capable of producing at least two alarm indications, one of said alarm indications indicating that the associated variable is the first of a series of said interreated group of vuriables to become abnormal, first alarm actuating means associated with each condition-indicating means and responsive to the abnormal condition o the associated variable for eflecting said one alarm t'ndication and for rendering the first alarm actuating means associated with the other condition-indicating means of the group inoperative to effect said one alarm indication, second alarm actuating means associated with each condltion-indicating means for efiecting the other alarm indication, and manually opcrable means operative each time it t's actuated to transfer operation from said first alarm to said second alarm actu'ating means while the flrst-to-become abnormal variable remains abnormal, whereby the condition-indicating means are clenred to indicate the first abnormal variable of a subsequent series of abnormal variabes within said group.

I7. An annunciator system comprising a group of condition-indicating means to be associated with an interrelated group of variables, means for providt'ng a first-tobecome abnormal alarm indication on the condition-indicating means which is associated with the variable of said group which first becomes abnorma. means for provding a second and a third alarm indication on said respective condition-indicating means, monnally operable acknowledgment means for changing said first to become abnormal alarm indication to said second alarm indication to indicate that the alarm has been acknowledged, means operative after the actuation of said acknowledgmt'nt means for holding the alarm indication indicating art acknowledged first-to-become abnormal variable even though the associated t'ariable returns to normal, and resetting means for removing the alarm indication of the condition-indicating means associated with the first to become abnormal variable i that variable has returned to normal and or changing an acknowledged alarm indication to said third alarm indication i the associated variable has not returned to normal so that the nnnunciator system is ceared to receive alarms of the first of a subsequent series of variables to become abnormal.

1'8. A n annuncator system ('omprising a group of condition-indicnting means to be associated with un interrelated group of variables, means for automatically providing a first to become abnormal alarm indication on the 15 condition-indicating means which is associated with the variable o said group of variables which first becomes abnormal, means providing a second alarm indication on a condition-indicating means which second alarm indication also indt'cates a first-to-become abnormal variable, manually operable acknowedgment means for changing said first alarm indication to said second alarm indication, holding means for holding said first and second alarm indications even though the associated variable returns to normal, and manually operable reset means for removing said alarm indications for variables which have returned to normal.

19. An annunciator system comprising a group of condition-indicating means' to be associated with an interrelated group of variables, first alarm actuating means for automatically providing a first-to-become abnormal alarm indication only on the condition-indicating means which is associated with the variable of said group which first becomes abnormal, second alarm actuating means for providing a second alarm indication on each of said condition-indicating means, and manually operable resetting means operative each time it is actuated to operate said second alarm actuating means to change the alarm indication of said condition-indicating means to said second alarm indication only if the associated variable has not returned to normal, so that the annunciator system is cleared to receive alarms on the first of a subsequent series of variables to become abnormal.

20. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising alarm indicating means for each variable for providing an alarm indication indicating that the associated variable was the first of the group to become abnormal, first-to-become abnormal alarm actuating means associated with each of said alarm indicating means and responsivc to the abnormal condition of the associated variable for efiecting the energization of the associated alarm indicating means, and for rendering the alarm actuating means associated with the other alarm indicating means of the group inoperative while the irst-to-become abnormal indication remains, manually operable resetting means for removing the first-to-become abnormal alarm indication for a variable which has returned to normal, means for holding the first-to-become abnormal indication until actuation of said manually operable resetting means, and means for disabling operation of the alarm actuating means associated with still abnormal variables which became abnormal subsequent to the first-to-become abnormal variable when the first-to-become abnormal indication is removed.

21. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising alarm indicating means for each variable for providing an alarm indication which indicates that the variable is the first of a series of variables of the group to become abnormal, an alarm relay and an energization circuit therefor associated with each alarm indicating means, said relay assuming a first position when the associated variable is abnormal and having a second or normal position, a lock-out relay and enerigization circuit therefor for each alarm indicating means, an acknowledgment or third relay and an energization circuit therefor for each alarm indicating means, an energization circuit for each of said alarm indicating means, a holding circuit for said alarm relay including holding contacts of the alarm relay and contacts of said lock-out and said third relays adapted to hold the alarm relay in its abnormal position when either the lock-out relay or said third relay is in a first position thereo, the energization circuit of said lock-out relay including contacts of the alarm relay and of said third relay which result in the actuation of said lock-out relay to said first position thereof when said alarm relay is initially actuated to its abnormal position and said third relay is in said first position, said lock-out relay also having holding contacts in its energization circuit which hold the lock-out relay in said first position independent of the position of said third relay, the energization circuit of said third relay including contacts of said alarm relay which actuate said third relay to said first position thereo when the alarm relay is in its normal position, the energization circuit of said third relay also including holding contacts of said third relay which hold the same relay in said first position, momentarily manually operable acknowledge switch means for momentarily operating the third relay to a second position, a momentarily manually operable resetting switch for also momentarily Operating said third relay to said second position and said lock-out relay to a second position, the energization circuit of said alarm indicating means each including contacts of the associated lock-out relay which are adapted to operate said alarm indicating means to a first-to-become alert abnormal indicating position only when the lock-out relay is in said first position and contacts of said third relay and other apparatus for Operating said alarm indicating means to indicate an acknowledged condition only when said lock-out relay is in said first position and said third relay is in said second position, and a lock-out circuit responsive to the operation of said lock-out relay to its first position to disable operation of all other lock-out relays in the system thereby maintaining the lattcr relays in their second position to prevent a first-to-become abnormal indication for variables which become abnormal following the first-to-become abnormal variable.

22. An annunciator system for indicating the presencc of abnormal variables in a group of interrelated variables comprising alarm indicating means for each variable for providing an alarm indication which indicates that the variable is the first of a series of variables of the group to become abnormal, an alarm relay and an energization circuit therefor associated with each alarm indicating means, said relay assuming a first position when the associated variable is abnormal and having a second or normal position, a lock-out relay and energization circuit therefor for each alarm indicating means, a third relay and an energization circuit therefor associated with each alarm indicating means, an energization circuit for each of said alarm indicating means, the energization circuit of said lock-out relay including contacts of the alarm relay and o said third relay which result in the actuation of said lock-out relay to said first position thereof when said alarm relay is initially actuated to its abnormal position and said third relay is in said first position, said lock-out relay also having holding contacts in its energization circuit which hold the lock-out relay in said first position independent of the position of said third relay, the energization circuit of said third relay including contacts of said alarm relay which actuate said third relay to said first position thereo when the alarm relay is in its normal position, the energization circuit of said third relay also including holding contacts of said third relay which hold the same relay in said first position, a momenturily manually operable resetting switch for momentarily opcrating said third relay to said second position and said lock-out relay to a second position, the'energization circuit of said alarm indicating means each including contacts of the associated lock-out relay which are aadpted to operate said alarm indicating means to a flrst-to-bccome alert abnormal indicating position only when the lock-out relay is in said first position, and a lock-out circuit responsive to the operation of said lock-out relay to its first position to disable operation of all other lock-out relays in the system thereby maintaining the latter relays in their second position to prevent a first to become abnormal indication for variables which become abnormal following the first-to-become abnormal variable.

23. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising alarm indicating means for each variable for providing an alarm indication which indicates that the vart'able is the first of a series o variables of the group to become abnormal, an alarm relay and an energization circuit therefor associated with each alarm indicating means, said relay assurning a first position when the associated variable is abnormal and having a second or normal position, a lock-out relay and energization circuit therefor for each alarm indicting means, an acknowledgment or third relay and an energization circuit therefor associated with each alarm indcating means, an energization Circuit for each of said alarm indicating means, the energization circuit of said lock-out relay including contacts of the alarm relay and of said third relay which result in the actuation of said lock-out relay to said first position thereof when said alarm relay is initially octuated to its abnormal position and said third relay is in said first position, said lock-out relay also having holding contacts in its energization circuit which hold the lockout relay in said first position independent of the position of said third relay, the energization circuit of said third relay including contacts of said alarm reiay which actuate said third relay to said first position thereof when the alarm relay is in its normal position, the energization circuit of said third relay also including holding contacts of said third relay which hold the same relay in said first position, momentarily manualy operable acknowledge switch means for momentarily operating the third relay to a second position, the energization circuit of said alarm indicating means each including contacts of the associated lock-out relay which are adapted to operate said alarm indicating means to a first-to-become alert abnormal indicating position only when the lock-out relay is in said first position, and contacts of said third relay and other apparatus for operating said alarm indicating means to indicate an acknowledged condition only when said lock-out relay is in said first position and said third relay is in said second position, and contacts of said third relay and other apparatus for Operating said alarm indicating means to indicate an acknowledged condition only` when said lock-out relay is in said first position and said third relay is in said second position, and a lock-out circuit responsive to the operation of said lock-out relay to its first position to disable operation of all other lockout relays in the system thereby maintaining the latter relays in their second position to prevent a first-to-become abnormal indication for variables which become abnormal following the first to become abnormal variable.

24. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising first means for each variable for providing a first alarm indication indicating that the associated variable was the first of the group to become abnormal, respective circuits for controlling the energization of said first alarm indicating means, an alarm relay for each variable having contacts in the energization Circuit of the associated alarm indicating means and adapted to prepare said circuit for energization when said alarm relay is in a first abnormai-indicating position and to disable said circuit when the relay is in a second normal-indicating position, means for Operating said alarm relays respectively into said first and second positions when the associated variables are respcctively abnormal and normal. a lock-out relay for each variable having contacts in the energization circuit of the associated alarm indicating means, which contacts are adapted to energize the prepared energization circuit of the associated first alarm indicating means when said lock-out relay is in one position, and to disablc the prepared energization circuit of the associated first alarm indicating means when said lock-out relay is in another position, means responsive to the operation of each alarm relay into said flrst position for actuating the associated lock-out relay into said one Position and responsive to the operation of each alarm relayI into said second position for actuating the associated lock-out relay into the other position, and means responsive to the operation of each lock-out relay ;gta said one position for disabling the other lock-out re- 25. An annnnciator system comprising a group of condition-indicating means to be associated with an interrelated group of variables. each of said conditionindicating means being capable of producing at least one alarm indication which indicates that the associated variable is the first o a series of variables to become abnormal. first alarm actuating means associated with each condition-indicating means and responsive to the abnormal condition of the associated variable for eflecting said one alarm indication and for rendering the first alarm actuating means associated with the other condition-indicating means of the group inoperative, each of said alarm actuating means including an alarm relay and associated control circuitry for Operating said alarm relay to abnormal and normal positions, respectively, and a lock-out relay and control circuitry therefor including contacts of said alarm relay which are arranged to operate said lock-out relay to a first position when the alarm relay is in its abnormal position, a disabling circuit associated with each lock-out relay including contacts of the associated lock-out relay which disable operation of the other lock-out relays to their first positions when the associated lock-out relay is in its first position, circuit means for preventing operation of the lock-out reays associated with still abnormal variables which became abnormal following the first-to-become abnormal variable to said first positions thereof when the alarm relay associated with the first-to-become abnormal variable returns to its normal position. and an energizing circuit for each condition indicating means including contacts' of the associated alarm and lock-out relays which energize the condition indicating means when said relays are respectively in said abnormal and Dfirs't positions.

26. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising means for providing two diflerent alarm indications for each variable of said group, one indication indicating that the associated variable is the first of a series of said related variables to become abnormal and the other indication indicating that the associated variable has become abnormal subsequent to another variable of the series. control means for said first-mentioned means. said control means being responsive to the condition of the variables of said group for causing said first-mentioned means to produce said one indication for the firstto-become abnormal variable and to produce said other indication for the variables which become abnormal subsequent to said first-to-become abnormal variable, and manually operable reset control means operative each time it is actuated to change the alarm indication associated with the first-to-become abnormal variable to said other alarm indication if the latter variable has not returned to normal so as to clear the indicating means for a subsequent series of alarms.

27. An annunciator system for indicating the presence of abnormal variables in a group of interrelating variables comprising alarm indicating means associated with each variable for providing a first alarm indication indicating that the vairabe is the first of a series of variables to become abnormal and a second alarm indication indicating that the variable became abnormal following another variable in said series of variables, control means for said first-mentioned means, said control means being responsive to the condition of the variables of said group for causing said first-mentioned means to produce said first alarm indication for the first-to-become abnormal variable and to produce said second alarm indication for the variables which became abnormal subsequent to said first-tobecome abnormal variable, said control means including means for automatically removing the alarm indication on the alarm indicating means associated with a variable which became abnormal following the first-to-become abnormal variable of said series of variables and which has returned to normal. and holding means for maintaining the first-to-become abnormal alarm indication on the alarm indicating means associated with a first-to-become abnormal variable even though the variable has returned to normal.

28. An annunciator system comprising a pair of separate, electrically-operated, condition-indicating means associated with each variable and capable of prodacing diflerent alarm indications, one of said alarm indications indlcating that the associated variable is the first of a series of said interrelated group of variables to become abnormal and the other alarm indication indicating that the associated variable became abnormal following another abnormal variable of the series, first alarm control cirucit means controlling operation of one of the condition-indicating means of each of said pair of conditionindicating means and responsive to the abnormal condition of the associated variable by energizing the associated one condition-indicating means and by preventing energization of the condition-indicating means controlled by the first alarm control circuit means associated with the other pairs of condition-indicating means. second alarm control circuit means controlling the energization of the other condition-indicating means of each of said pair of condition-indicating means and normally responsive to the abnormal condition of the associated variable by energizing the latter condition-indicating means, and each of said second alarm control circuit means including means for preventing energization of said associated other condition-indicating means if the associated one condition-indicating means is energized.

29. An annnnciator system comprising a group of condittbn-indicating means to be associated with an interrelated group of variables, means for providing a firstto-become abnormal alarm indication on the conditionindicating means which is associated with the variable of said group which first becomes abnormal, means for providing a second alarm indication on the other condition-indicating means which are associated with variables which become abnormal following another variable, and reset means operative each time it is actuated to remove the alarm indications of the condition-indicating means associated with the flrst-to-become abnormal variable f that variable has returned to normal and to change the rlarm indication of said last-mentioned condition-indirating means if the associated variable has not returned ro normal so that the annunciator system is cleared to 'eceive alarms on the first of a subsequent series of variables to become abnormal.

30. An annunciator system comprising a group of conlition-indicating means to be associated with an inter- 'elated group of variables, means for providing a first-tobecome abnormal alarm indication on the condition- 'ndicating means which is associated with the variable f said group which first becomes abnormal, means for roviding a second alarm indication on the other condiion-indicating means which are associated with variables vhich become abnormal following another variable, and

means operative each time it is actuated to change the alarm indication of the indlcating means associated with the first-to-become abnormal variable to another alarm indication so that the annunciator system is cleared to receive alarms on the first of a subsequent series of variables to become abnormal.

3l. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising means for providing two different alarm indications for each variable of said group, one indication indicating that the associated variable is the first of a series of said related variables to become abnormal and the other indication indicating that the associated variable has become abnormal subsequent to another variable of the series, control means for said first-mentioned means, said control means being responsive to the condition of the variables of said group for causing said first mentioned means to produce said one indication for the first-to-become abnormal variable and to produce said other indication for the variables which become abnormal subsequent to said first-to-become abnormal variable. and means operative each time it is actuated to change the alarm indication associated with the first-to-become abnormal variable to said other alarm indication if the latter variable has not returned to normal so as to clear the indicating means for a subsequent series of alarms.

32. An annunciator system for indicating the presence of abnormal variables in a group of interrelated variables comprising alarm indicating means for each variable for providing an alarm indication indicating that the associated variable was the first of the group to become abnormal, first-to-become abnormal alarm actuating means associated with each of said alarm indicating means and responsive to the abnormal condition of the associated variable for eflecting the energization of the associated alarm indicating means and for preventing operation of the other of said alarm indicating means of the group. means for removing the flrst-to-become abnormal alarm indication for a variable which has returned to normal and means for preventing operation of said alarm indicating means associated with still abnormal variables which became abnormal subsequent to the first-to-become abnormal variable when the first-to-become abnormal indication is removed.

References Cltcd in the le of this patent or the original patent UNITED STATES PATENTS l,794,626 Langdon Mar. 3, 1931 2.058,082 Jameson Oct. 20, 1936 2.558.637 Walz June 26. 1951 2,600.132 Selton June 10, 1952 FOREIGN PATENTS 271.964 Great Britain May 5. 1932 

